moist static energy budget diagnostics for monsoon research · 2015-06-14 · 4xco. 2. minus. 20c3m...
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Moist static energy budget diagnostics for monsoon research
H. Annamalai
JJAS – Precipitation and SST Climatology
I II
III
• Multiple regional heat sources - • EIO and SPCZ – still experience high precipitation (thermal equator at 20oN) • Central India rainfall – dynamical effects; Rain-shadow regions • absolute ascent over a large domain
Observed Boreal Summer ISV
OLR anomalies W/m2
“one-phase of the ISV” Annamalai and Sperber (2005, JAS) Lau and Chan (1986, JAS); Krishnan (2000, JAS)
“internal dynamics”
JJAS rainfall anomalies (2002/04/09) - TRMM
“Boundary forcing”
4xCO2 minus 20c3m
Stowasser, Annamalai and Hafner (2009 J. Climate)
JJAS Precipitation response in CM_2.1
(mm/day) CMIP5 results – more rainfall over west Pacific – descent over EIO/India Radiative forcing effect – local air-sea
General Hypothesis Interaction between equatorial waves and moist physics needs to be understood for attributing the causes for precipitation anomalies over “mean ascent” regions
∂m∂t
= − V • ∇m − ω∂m∂p
+ LH + SH + LW + SW
m = CpT + gz + Lq
Representation of interaction between cumulus convection and circulation requires consideration of moisture and temperature that is represented by MSE, m, given by
The vertically integrated MSE tendency is approximately given by
WTG approximation – temperature advection is negligible
Horizontal advection
Cloud-radiative interaction
Charging/ discharging MSE export
Vertical adv
+ residuals
fluxes
“since 1994….in a given year monsoon rainfall over India has not exceeded 10% above normal” but such incidents have occurred in the past too -
30 years below normal
40 years above normal
40-50 years of below normal
2 La Nina years – below normal rainfall
Delaware product
PREC/Land (NOAA)
CRU product
“spatial coherency – amplitude differs”
SST averaged over the tropical Indian Ocean – West Pacific
Significant SST rise (above natural variability) since ~ 1950s
weak rise no change
Since 1950 – rate of rise is pronounced Its relevance to monsoon?
JJAS SST linear trend
SST rise over climatological low rainfall regions – any changes in evaporation – obs??
??????
SLP (shading) and 850 hPa wind – linear trend 1949-2005
monsoon trough over India weakens” SLP deepens over the tropical western Pacific – “Australian and Mascarene High – intensify – cross-equatorial flow over the western Pacific is strengthened - cyclonic vorticity (regional circulation changes) “ Despite SST rise, atmosphere over the tropical Indian Ocean has not yet responded”
(a) CRU rainfall (b) SLP / Wind 850hPa (c) Hadley Centre SST
(d) CM2.1 rainfall (e) CM2.1 SLP – Wind 850hPa (f) CM2.1 SST
SST rise – shifts the monsoon circulation more rainfall over tropical west Pacific less rainfall over South Asia
SST trend shifts the monsoon circulation – promotes more rainfall over the tropical western Pacific - subsequent descent through Rossby waves and dry air intrusion aid in the weakening of rainfall over South Asia
Working Hypothesis
Numerical experiments performed
Monthly observed SST trend (1949 – 2000) superimposed on clim. SST – 5 members 1.Tropical oceans (GFDL – AM2.1) 1.Tropical Indo-Pacific warm pool (GFDL - AM2.1) 1.Tropical west Pacific only (GFDL – AM2.1)
2. Linear barolcinic model (steady-state solutions) – to identify Rossby wave dynamics
Rainfall linear trend (AM21 simulated)
SLP (shaded) and 850 hPa wind
“Australian high – not consistent with reanalysis products”
Evaporation trend – simulated by AM2.1
“Evaporation decrease along the cross-equatorial flow is due to wind anomalies despite SST rise is prescribed in the model experiment”
(a) Precipitation (b) SLP and 850 hPa winds (c) MSE divergence
(d) Evaporation (e) Moisture advection (f) Temperature advection
Dry, cool air penetrates South Asia
Linear trend simulated by AM2.1
(a) SLP and 850 hPa winds (b) Vertical velocity 400 hPa
Day 6
Day 9
(c) SLP and 850 hPa winds (d) Vertical velocity 400 hPa
(e) Precipitation and 850 hPa winds (f) Moisture advection
Day 20
Rossby wave interpretation
• MSE is a powerful diagnostic to identify leading moist and radiative processes deem responsible for rainfall anomalies over mean ascent regions • MSE budget residuals – observational constraints over Monsoon regions • Model improvement – need 3-d moisture and radiation observations • Monsoon Mission on Observations
Summary
May averaged CM2.1 composite of anomalous 850 hPa stream line and rainfall
Severe weak monsoons over south Asia co-occurred with developing phase of El Nino
Pillai and Annamalai (2012, J. Atmos. Sci. )
NIO – anticyclonic vorticity – within 2-3 days of SST forcing – rainfall after about 20 days Dry air advection from north is instrumental in initiating the dryness
May rainfall and 850 hPa wind response to El Nino SST forcing
W/m2
AM2.1 solutions – Forced with CM2.1 composite SST anomalies (El Nino)
Days from 15 March
Rainfall over S. Asia 850 hPa Vorticity (west of rainfall maximum)
“dry advection leads rainfall anomalies – long lead time – useful for prediction”
AM2.1 solutions
Forced AM2.1 with CM2.1 composite El Nino SST anomalies + 20c3m climatology (25 members; 01 March – 30 November)
(b)
Control simulation with a coupled model (no anthropogenic forcing included)
Blue (rainfall anomalies over India) Red (rainfall anomalies over tropical west Pacific)
Years
“no clear TREND of rainfall”
“breakdown of the decadal-multidecadal variability?”
anthropogenically induced?
Low variability
High variability High variability
6-8% decline
CanESM2 CCSM4
CNRM-CM5 GFDL-CM3
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